SU1376201A1 - A.c. electric drive - Google Patents

Abstract

The invention relates to electrical engineering and can be used in electric drives of automatic line conveyors. The aim of the invention is to improve the accuracy of stopping the actuator in a predetermined position. This target is achieved by opening the thyristor 15 with the help of the LED 12 and the photo thyristor 14 of the optocoupler in its control circuit immediately after the arc is extinguished at the contacts of the 2.3.4 network contactor. This ensures the elimination of free run-down of the engine 1 at a high rotational speed prior to the start of braking. 1 il.

Description

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The invention relates to electrical engineering and can be used in electric drives of automatic line conveyors.

The purpose of the invention is to improve the accuracy of stopping the actuator in a predetermined position.,

The drawing shows a diagram of the drive.

The AC drive contains a three-phase asynchronous electric motor 1, a line contactor with three closing contacts 2-4 in the phases of the stator winding and an opening block contact 5, the anodes of the first 6 and second 7 diodes are connected to the terminals of two phases of the stator winding, and the cathodes of the diodes 6 and 7 are connected to a common point which is connected via the closing contacts 8 and 9 of the brake contactor respectively to one output of the DC source 10 and to the output of a resistor 11 connected to the LED 12 of the optocoupler and through the opening unit Contact 5 of the brake contactor with the anode of the third diode 13, the cathode of which is connected to the anode of the photo thyristor 14 of the optocoupler and controlled by the electrode of the thyristor 15, the cathode of which is connected to the cathode of the photo thyristor 14 of the optocoupler and the third phase of the stator winding, is connected to the other terminal of the thyristor 15 source 10 direct current.

The drive works as follows.

Contacts 8 and 9 of the brake contactor prepare the braking circuit and turn on in advance, immediately after turning on the contacts 2-4 of the mains contactor, which start the engine 1, and turn off after switching off the latter with a time delay exceeding (for reliability) the drive stop time Used as a time delay relay. .

It is possible to turn off the brake contactor by the signal of the engine speed control relay 1.

During the rotation of motor 1, the tee-: resistor 15 cannot be opened, since the opening block contact 5 of the mains contactor is open and the control electrode circuit of the thyristor 15 is open. Immediately after the contacts 2-4 are closed and the contact of the circuit 5 is closed, the thyristor 15 does not opens until the arc goes out on the power

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pins 2-4, since the thyristor 15 input is shunted by the photothyristor 14 output of the optocoupler until current flows to ground (to the neutral wire of the power supply network) through the circuit: one of the power contacts 2-4, on which the arc still exists, through the windings motor or, mine, immediately through diodes 6 and 7, pin 9, resistor 11 and LED 12 of the optocoupler.

The thyristor 15 opens, immediately after the arc extinguishes on pins 2-4, with the current coming from the engine 5 l 1, which starts working as a generator due to the energy stored in it before it is disconnected from the network, creating a braking moment - until until the magnetic flux is attenuated. This current does not pass through the LED 12 of the optocoupler because there is no return path to the motor 1. A non-circulating current from the two phase windings of the motor 1 through diodes 6 and 7 first flows through the input circuit of the thyristor 15 - contact 9 of the brake contactor, resistor 11 , the auxiliary contact 5 of the mains contactor, the diode 13 to the third phase winding of the motor 1, and after turning on the thyristor 15 through the circuit formed by the power diodes 6 and 7, the contact 8 of the braking contactor, the DC source 10 (the EMF of which is added to EMF produced by engine 1, working m in generator mode), thyristor 15 and motor windings 1.

After attenuation of the motor magnetic flux, the 1-magnetic braking stops and in the future until the electric drive completely stops, only dynamic braking occurs due to the energy supplied from the network through the DC source 10.

Thus, by means of an injected thyristor optocoupler, the free engine ha is eliminated at a high rotational frequency before the start of the braking process. The braking process begins immediately after the arc extinguishes on the network contacts. contactor. This property is required mainly in electric drives where an exact stop in a given position is needed, since during the free run-down the scatter field of the path traveled to the stop is proportional to the square of the velocity of moving the masses.

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Claims (1)

Invention Formula AC drive containing a three-phase asynchronous electric motor, a mains contactor with three make contacts in the stator winding phases and an opening block contact, a thyristor, a braking contactor with two KOHTacks, the first and second diodes, the anodes of which are connected to the two phases of the stator winding , and the cathodes are combined into a common point, a resistor connected by one output to one output of the opening contact of the network contactor, the other output of which is connected to the anode of the third diode, is equivalent to In order to ensure that the electric drive stops at a predetermined position, a direct current source and an optocoupler with a LED and a photo thyristor are inserted into it, the cathode of the third diode is connected to the control electrode of the thyristor and to the anode of the photo-thyristor of the optocoupler whose cathode is connected to the cathode of the thyristor with the third phase of the stator winding of the electric motor, the common point of the cathodes of the first and second diodes is connected via the first and second contact contacts of the brake contactor to one output source of a constant This device is connected to the other side of the thyristor anode and is connected to another thyristor.